A Beverage Container

ABSTRACT

The disclosure herein is directed to a beverage container that can be used as a cup comprising: a body defining an internal volume for a single-serve of a beverage, the body has a mouth at a first end having a removable seal for drinking the beverage from the container and a stem having a filling opening at second end, wherein the filling opening is sealed by a closure after filling, and the filling opening and the stem adjacent to the filling opening are narrower than the mouth.

FIELD OF THE INVENTION

The disclosure generally relates to beverage containers and a method of filling beverage containers, for example containers that can be used for single-serve applications.

BACKGROUND OF THE INVENTION

Some beverages, such as wine, are unstable in the presence of oxygen (e.g., the wine goes off). As a result, reducing the amount of oxygen in the headspace in the packaging of these beverages can extend the shelf life of the packaged beverage.

Recently there has been demand from consumers to purchase wine in single-serve portions, with the containers sometimes resembling a cup, including those that have a standard wine glass shape. However, due to the smaller volume of wine in a single-serve container, a single serving of wine will deteriorate proportionately faster than, for example, a bottle of wine. This is because the amount of oxygen/headspace present in the single-serve container, as a ratio of the entire volume of the container, is significantly greater than in a bottle of wine. Accordingly, the shelf life of these single-serve products can be relatively short compared to bottles of wine.

Some manufacturers have opted to fill the cup close to the top, in order to reduce the amount of oxygen/headspace present in the cup. However, this can lead to the contents being splashed or spilled during removal of the lid. In addition, drinking from a cup that is filled to the top is awkward, and not desirable for consumers as the aromas of the wine cannot be appreciated prior to tasting.

It is in view of some of the above problems that the invention was conceived.

SUMMARY OF THE INVENTION

The present disclosure provides a beverage container that is inverted into a cup comprising: a body having a mouth and a stem, wherein the mouth is larger than the stem, the body defining an internal volume that is filled with a beverage, the mouth being sealed by a removable seal, wherein the stem has a filling opening leading to a passage in fluid communication with the internal volume, the opening being sealed by a volume reducing closure after filling.

By providing a stem through which the beverage container can be filled, and wherein the stem is smaller or narrower in size, area, or diameter than the mouth of the container, the volume of headspace in the beverage container, and therefore the amount of oxygen in the beverage container, can be reduced. The internal diameter of the stem is smaller than the internal diameter of the mouth. Beverage filling equipment usually needs to leave a minimum headspace height between the surface of the liquid and the top of the stem or mouth rim. If the beverage container was filled through the mouth the result would be a greater volume of headspace (and therefore oxygen) for the same minimum height of headspace at which the stem could be filled.

The closure may be a plug that extends through the opening and into the passage, thereby reducing the headspace. A removable base can be attached to the beverage container. The base can be selectively attached to the stem so that the container can be inverted and stabalised in an inverted position for use as a cup. In this embodiment the base is positioned across the mouth. In one embodiment the base sits within the mouth and may be attached across the mouth or retained within the mouth by a lid, such as a foil or plastic lid, overlying the base and attached to the mouth.

The removable seal may include a lid and/or may include a punt that extends into the internal volume of the beverage container. The punt can be hollow. The base can sit substantially within the hollow punt. The removable seal may have a tab to assist in removal. The punt has the effect of raising the level of the liquid relative to the rim of the mouth but to drop the liquid level to a more practical and appropriate level for drinking once the punt is removed.

The beverage container may be designed to have the shape and appearance of a wine glass. The beverage container is designed to accommodate a single serving of the beverage (i.e., the beverage container may be a single-serve container). The beverage container can have the appearance of a small bottle before use and may be inverted to be used as a cup.

In another aspect, there is disclosed a method of filling a beverage container that is inverted into a cup including: attaching a seal to a mouth of the beverage container; filling an interior volume of the beverage container through a passage in a stem of the beverage container via an opening located in the stem, wherein the mouth is larger than the stem; and sealing the opening in the stem after the beverage container has been filled.

The method may include sealing the opening in the stem, either permanently or removably, with a plug that extends through the opening and into the passage. The method may include attaching a hollow punt to seal the mouth of the beverage cup. The method may include attaching a base to the hollow punt so that the base sits substantially within the hollow punt.

In another aspect, there is disclosed a beverage container that is inverted into a cup comprising: a body having a mouth and a stem, wherein the mouth is larger than the stem, the body defining an internal volume that is filled with a beverage, the mouth being sealed by a removable seal, wherein the stem has a filling opening leading to a passage in fluid communication with the internal volume, the filling opening being 17 mm or less in diameter, the filling opening being sealed by a closure after filling.

In another aspect, there is disclosed a beverage container that is inverted into a cup comprising: a body having a mouth for drinking from and a stem, the body defining an interior volume to be filled with a beverage, the mouth being sealed by a removable seal, and wherein the stem has a filling opening leading to a passage in fluid communication with the interior volume to allow the beverage container to be filled through the stem, the filling opening being 17 mm or less in diameter.

In another aspect, there is disclosed a beverage container that is inverted into a cup comprising: a body having a mouth and a stem, wherein the mouth is larger than the stem, the body defining an internal volume that is filled with a beverage, the mouth being sealed by a removable seal, wherein the stem has a filling opening leading to a passage in fluid communication with the internal volume, the opening being permanently sealed by a closure after filling.

In another aspect, there is disclosed a beverage container that is inverted into a cup comprising: a body having a mouth for drinking from and a stem, the body defining an interior volume to be filled with a beverage, the mouth being sealed by a removable seal, and a removable punt extending into the interior volume; wherein the stem has an opening leading to a passage in fluid communication with the interior volume to allow the beverage container to be filled through the stem.

In another aspect, there is disclosed a beverage container comprising: a body having a stem and a pair of openings disposed at opposing ends thereof, a first opening of the pair being larger than a second opening of the pair, the body and stem together defining an internal volume that is fillable through the stem with a beverage, wherein the first opening is sealed by a removable seal and the second opening is sealed by a closure, each of the removable seal and the closure being configured to protrude into the internal volume of the body to adjust a headspace therein.

In another aspect, there is disclosed a beverage container that can be used as a cup, in which the beverage container contains a beverage and comprises: a body defining an internal volume in which a single-serve of the beverage is retained, the body having a mouth at one end including a removable seal for drinking the beverage from the container and a stem having a filling opening at second end, wherein the filling opening is sealed by a closure after filling, and the filling opening and the stem adjacent to the filling opening are narrower than the mouth to control oxygen trapped within the container.

BRIEF DESCRIPTION OF THE DRAWINGS

Elements of the present description will now be described by way of example only with reference to the accompanying drawings in which:

FIG. 1A is a side view of a beverage container in accordance with an embodiment;

FIG. 1B is a cross-sectional view of the beverage container shown in FIG. 1A along the line F-F;

FIG. 1C is an enlarged cross-sectional view of the beverage container shown in FIG. 1B at Area G;

FIG. 1D is an enlarged cross-sectional view of the beverage container shown in FIG. 1B at Area H;

FIG. 2A is a side view of the beverage container shown in FIG. 1A inverted and with a base attached to a stem of the beverage container;

FIG. 2B is a cross-sectional view of the beverage container shown in FIG. 2A along the line B-B;

FIG. 3A is a top isometric view of the beverage container shown in FIG. 1A without a closure sealing a stem opening;

FIG. 3B is a top isometric view of the beverage container shown in FIG. 3A with a closure sealing the stem opening;

FIG. 3C is a bottom isometric view of the beverage container shown in FIG. 3B;

FIG. 3D is a top isometric view of the beverage container shown in FIG. 2A;

FIG. 3E is a top isometric view of the beverage container shown in FIG. 3D with a seal removed from a mouth of the beverage container; and

FIG. 4 is a flowchart, detailing the steps of a method of packaging a beverage as disclosed herein.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

FIGS. 1A to 3E illustrate a beverage container that is inverted into a cup, for example having the shape of a wine glass. The beverage container is shown as single-serve wine glass 10, comprising a body 12 having a mouth 14 and a stem 16. As the mouth is adapted from which a consumer can drink a beverage, the mouth is larger than the stem. The body 12 defines an internal volume 18 that is filled with a beverage 19. The mouth 14 is sealed by a removable seal, which in the embodiment shown is punt 20. The stem 16 has an opening 30 leading to a passage 32 in fluid communication with the internal volume 18. The opening 30 is sealed by a closure, such as an insert in the form of a volume reducing closure, which is shown as plug 34. The closure may be permanently or temporarily (i.e., removably) sealed.

The opening 30 in the stem 16 allows the wine glass 10 to be filled through the stem 16, rather than through the mouth 14 of the wine glass. In a standard filling situation a beverage cup will have a single opening that is used for both filling the cup and for drinking (i.e., the mouth). During filling a specified height of the internal volume of the cup is left unfilled. This is known as a headspace (i.e., the volume of air, and therefore oxygen, in the cup that is not filled with the consumable product). A headspace may be necessary because the filling equipment along the assembly line usually needs a headspace to avoid spillage during filling. For example, the filling head (with a valve) of a filling system may be inserted 10 mm to 15 mm into a filling opening during filling, resulting in a 10 mm to 15 mm headspace once the filling head is removed.

In practice it is envisaged that during filling, the filling head could be inserted further into the cup through the stem and almost to the base so that the cup will start to fill from the base and the filling head will gradually lift as the fluid enters until the head is at approximately 10 mm from the rim of the mouth 14. This has the effect of decreasing the foaming effect of the liquid on filling thereby further reducing the level of oxygen that contained in the sealed cup that can impact the quality of the liquid, e.g., wine.

Furthermore, when filling a “shot” of nitrogen could be injected into the container before the container is filled so that the resulting head space after filling contains nitrogen rather than oxygen.

By including an opening in the stem, which is narrower than the mouth, the internal volume of the cup can be filled to the same height but have a smaller headspace volume. In other words, as the diameter of the passage 32 in the stem 16 is smaller than the diameter of the mouth 14, filling the wine glass 10 through the opening 30 in the stem can reduce the headspace volume. This method of packaging a beverage is illustrated in stages in the flow chart of FIG. 4.

It will be understood that “permanently sealed by a closure” means that the seal is not intended to be opened by a consumer to allow the consumer to access the beverage through the opening in the stem. “Permanently sealed by a closure” is intended to mean that the opening is sufficiently sealed to discourage a consumer from unplugging the stem. In some embodiments the closure can be ultrasonically welded to the stem of the container, such that any attempt to remove the closure will damage the stem. The stem is intended to be designed solely for the purpose of filling, rather than for filling and for pouring liquid back out of the container.

It will be understood that the term “wine glass” when referring to the shape of the container is not limited to containers made from glass, and that the term is widely used to describe both glass and plastic containers for holding wine.

The term “single-serve” is understood herein to refer to a serving of a beverage that equates to one portion. It is understood that for alcoholic drinks, the portion may be varied according to local laws and/or preferences.

The method of filling the wine glass 10 includes attaching the seal, shown as punt 20, to the mouth 14 of the wine glass 10. It also includes filling the interior volume 18 of the wine glass 10 through the passage 32 in the stem 16 of the wine glass 10 via an opening 30 located in the stem 16, and sealing the opening 30 in the stem 16 after the wine glass 10 has been filled.

As mentioned above, the closure that seals the opening 30 in the stem 16 is shown as a volume reducing plug 34. The plug 34 extends through the opening 30 in the stem 16 and into the passage 32 and sits flush with the opening 30. The plug 34 is tapered so that when the plug 34 is inserted into the opening 30 the air in the headspace that is displaced by the plug 34 is able to escape from the beverage cup, rather than simply being pressurised. This helps to further reduce the amount of oxygen left in the wine glass 10 once it has been sealed. For example, the headspace may be reduced from 10-15 mm to about 2 mm-3 mm once the plug 34 has been inserted into the stem 16. The plug 34 is ultrasonically sealed at the opening 30.

Referring to FIGS. 1A, 1B, 2A and 2B, the wine glass 10 has a base 40 that is removably attached to the wine glass 10. In FIGS. 2A and 2B the wine glass 10 is inverted and the base 40 is shown attached to the stem 16 of the wine glass 10. This is the position that the base 40 would be in when a user is drinking from the wine glass 10. In FIGS. 1A and 1B the base 40 is shown attached to the punt 20. This is preferably the position that the base 40 would be in when the wine glass is being sold in store (and how it is transported to a store). In other words, the base 40 is first attached to the mouth of the glass 10 and/or to the removable seal, and is provided in this form for consumption, whereafter a consumer can remove the base from the mouth and attach it to the stem to take the form of a cup, such as having a wine glass shape.

While it is envisaged that the punt could be designed to act as the base, having a base 40 that is separate and distinct from the punt 20 (which is in contact with the beverage) allows the base 40 to remain dry. This is an advantage for consumers, as it avoids the chance of the base transferring unwanted beverage onto clothing or other objects, such as tables, etc.

The punt 20 is shaped so that it extends into the internal volume 18 of the wine glass 10. The punt 20 has two preferred functions. The first is to seal the mouth 14 of the wine glass 10. The seal is achieved for example only, either through heat sealing or ultrasonic welding. The seal is fluid proof but allows the seal to be broken when a user peels the material back on itself. In other words, the seal is preferably a peelable seal. The second is to displace a volume of the beverage in the wine glass 10. The punt facilitates this by having a domed shape. The domed shape of the punt 20 allows the beverage to occupy a space between the punt and the body 12 of the wine glass 10 (in a similar way to a punt in a wine bottle). This allows the wine glass, which is bigger than it needs to be to hold the beverage volume, to appear full when packaged for sale. In addition, removal of the punt 20 causes the height of the wine to drop below the mouth 14 of the wine glass 10, reducing the likelihood of spillage by the consumer.

The punt 20 is hollow and has protrusions (not shown) that extend into the hollow area 24 of the punt 20 and act as friction points. The protrusions hold the base 40 in contact with the punt 20. The hollow area 24 of the punt allows the base 40 to sit substantially within the punt 20. Alternatively, the protrusions may support the base 40, and a cover, such as a shrink wrapped sleeve (not shown) may be used to retain the base 40 in position. In such an embodiment the protrusions can be designed to not be equally spaced around the punt 20, thereby allowing a consumer to push down on an area of the base 40 that is not supported by a protrusion in order to tilt or pivot the base 40 relative to the punt 20 so that it rocks upwards, providing easy removal of the base 40 from the punt 20.

Referring to FIGS. 1B and 1C, the punt 20, which seals the mouth 14 of the wine glass 10, has a tab 22 to assist removal of the punt 20. The tab 22 is connected to the rest of the punt by a hinge 26 so that the tab can lie flat along the wall of the glass during transport and sale. The hollow area 24 of the punt 20 can also be used to house items other than, or in addition to, the base 40. For example, the hollow area 24 could hold small food items, mixer liquid, a novelty item or a toy (e.g., for non-alcoholic beverages).

The wine glass 10 may be sold with external information and graphics. For example, the wine glass may have a label or a shrink wrapped sleeve (not shown) to provide details about the product and the contents, and also for promotional purposes. As described above, the shrink wrapped sleeve can also hold the base in position in a hollow area 24 of the punt 20. By having the base 40 detachable from the stem 16 during transport a tight fitting shrink wrapped sleeve made from light resistant colour and materials to be securely shrunk over the stem 16, body 12, mouth 14 and base 40 to protect the fluids during storage, transport and presentation. Moving the base 40 from the stem 16 to the mouth 14 is advantageous because it simplifies the shape of the transportable and sellable product, thereby allowing a sleeve to be more easily applied to the glass 10.

If the beverage is red wine, or any other light sensitive beverage, a black film may be applied underneath the shrink wrapped sleeve. It is envisage that the shrink wrapped sleeve could cover part of the body 12 of the wine glass 10, cover the entire body 12 of the wine glass 10, or cover the entire body 12 of the wine glass 10 and the punt 20. Alternatively, the wine glass may have a lid (not shown) that protects the punt 20 and base 40. The shrink wrapped sleeve can also act as a tamper evidence device. The shrink wrapped sleeve can also provide hygienic protection of the rim of the mouth 14.

The shrink wrapped sleeve can cover the entire body 12 of the wine glass 10; however, in some embodiment the mouth 14 can be left partially uncovered by the sleeve to allow a consumer to grasp an edge of the shrink wrapped sleeve and remove the sleeve from the glass 10.

The shrink wrapped sleeve can be perforated or otherwise formed to provide a line of weakness along which the shrink wrapped sleeve can be opened and removed from the container. For example, if the shrink wrapped sleeve extends at least partially over the mouth 14, the line of weakness may be arranged in radial direction of the mouth 14 and extend to an edge of the shrink wrapper sleeve. The line of weakness can be formed in a circumferential direction around the mouth 14 of the glass 10. The line of weakness can be formed in a longitudinal direction that extends from the mouth 14 of the glass 10 towards the stem 16. Multiple lines of weakness can be formed in each of a circumferential and a longitudinal direction to facilitate removal of the shrink wrapped sleeve.

The shrink wrapped sleeve can comprise a plastic or polymer plastic, such as bi-axially oriented polypropylene (BOP). The sleeve is shrunk over the glass 10 once in place by the application of heat. A very fine gauge polypropylene having a thickness of less than 15 microns and preferably less than 10 microns is contemplated, for ease of disposal.

The shrink wrapped sleeve can extend the entire length of the glass 10 and can be used to display information. The surface of the sleeve can be printed upon or pre-printed to convey at least one of the following: product information, branding and logos, nutritional information, and a decorative motif or pattern.

The stem opening 30 is designed to allow filling of the wine glass 10, but it is not intended to be used for drinking from the wine glass. As a result the internal diameter of the opening 30 can be made much smaller than on a standard drinking bottle. The internal diameter of the opening 30 in the stem 16 of the wine glass is less than 18 mm, and is preferably 17 mm or less. More preferably the internal diameter is between about 10 mm and about 16 mm, and still more preferably between about 10 mm and about 14 mm, and at about 12 mm, 13 mm or 14 mm.

The body 12 of the wine glass is moulded. For example, the body 12 of the wine glass 10 can be injection moulded, for example using a plastics material, such as clear PET, for example PET WK811. The material that the body 12 is made from can also have oxygen scavenging additives, which reduce the rate of oxygen transmission to further increase the shelf life of the beverage in the wine glass 10. For example, the oxygen scavenging additive may be an Amosorbm oxygen scavenger. The material of the body has a low transmission of oxygen, for example less than 0.3 cm³/m²/day, or less than 0.1 cm³/m²/day (under Standard Temperature and Pressure (STP) conditions). The material is also a food-grade material, allowing it to be in contact with the beverage.

The body 12 of the wine glass 10 is preferably transparent, allowing a consumer to see the beverage through the wine glass, thereby allowing a consumer to visually inspect the wine while drinking the wine. It is envisaged that the body 12 could instead be made from any other suitable material, such as A-PET; polycarbonate; polystyrene or polyvinyl chloride. The diameter of the mouth 14 is preferably between about 65 mm and 80 mm, and is preferably 72 mm.

The plug 34 can be made using the same process as the body 12 of the wine glass, and can be made from any of the above-listed materials. The body 12 and the plug 34 are preferably made from the same material. The body 12 and the plug 34 are ultrasonically welded together to form a permanent seal. The base 40 can also be made using the same process as the body 12 of the wine glass, and can be made from any of the above-listed materials.

The punt 20 is formed from a laminate material. For example, the punt may be thermo-formed using a multi-layer film with oxygen resistance properties and a peelable seal, for example, as is used in some pharmaceutical packaging. The multi-layer film may have three main layers, with two tie layers to hold the three layers together. The multi-layer film may have a peel seal layer (which will be in contact with the body 12 to form the peelable seal), a high oxygen resistant layer (such as EVOH, PVDC or Al foil), and an abrasive and/or impact resistant layer (such as PET, Polypropylene, Nylon). These layers are fused together with a tie layer of specially selected compatible materials. The high oxygen resistant layer is located between the peel seal layer and the abrasive and/or impact resistant layer. This protects the high oxygen resistant layer from the beverage, which may be acidic (such as wine). The thickness of the punt 20 is less than about 2 mm, and preferably between about 0.6 mm and about 1.3 mm. The punt 20 is rigid enough to resist the weight of the wine during filling, but flexible enough to allow easy peeling during removal.

It will be understood that the material used for the peelable seal will depend on the material used to make the body 12. The material for the peelable seal is therefore achieved by careful selection of two compatible plastic materials. In addition, it is envisaged that a hydrophobic surface treatment or layer could be applied to the peelable seal of the punt 20 in order to reduce the amount of the beverage on the punt when the punt is removed. For example, the “lotus effect” may be applied to the liquid-facing surface of the punt.

Alternatively, the punt could also be made from aluminium that has been pressed formed into the shape of the punt. The aluminium punt will have a peel seal layer on the side that is sealed to the body 12 and a protective lacquer on the other side. The edge of the aluminium punt will be formed to roll down to provide protection and strength for the punt.

Referring to FIG. 1B, the method of filling the wine glass 10 includes:

-   -   attaching a hollow punt 20 to a mouth 14 of the wine glass 10;         filling an interior volume 18 of the wine glass 10 through a         passage 32 in a stem 16 of the wine glass 10 via an opening 30         located in the stem 16;     -   sealing the opening 30 in the stem 16 with a plug 34 that         extends through the opening 30 and into the passage 32 in the         stem 16 after the wine glass 10 has been filled;     -   attaching a base 40 to the hollow punt 20 so that the base 40         sits substantially within the hollow punt 20; and     -   attaching a shrink wrapped sleeve to the exterior of the wine         glass 10.

Referring to FIGS. 1A and 1B, the configuration in which a consumer would buy the single-serve wine glass 10 is shown. To open the single-serve wine glass 10 and drink the wine the consumer first removes the shrink wrapped sleeve. The shrink wrapped sleeve may have perforations or other lines of weakness to allow easy removal of the shrink wrapped sleeve. Once the shrink wrapped sleeve has been removed, the consumer removes the base 40 from the punt 20 and installs it on the stem 16 of the wine glass 10. The wine glass 10 is then inverted so that it rests on the base 40 (as shown in FIGS. 2A, 2B and 3D). The consumer then holds onto the tab 22 of the punt 20 and peels the punt 20 away from sealing engagement with the mouth 14 of the wine glass 10.

Referring to FIG. 3E, removing the punt 20 from the wine glass 10 causes the height 21 of the wine 19 to drop below an upper rim 15 of the mouth 14 of the wine glass 10 as the punt was displacing a volume of the wine in the wine glass 10. The lower height of wine in the wine glass 10 is more comfortable for the consumer, as it reduces the likelihood of spillage by the consumer. Utilising a punt 20 has the benefit of allowing the wine glass 10 to be filled to the top (to reduce the amount of oxygen) while also providing a product that is not filled to the top once it is opened.

As the wine glass 10 is a single serve wine glass (i.e., it is designed to hold a standard single-serve, or portion size, of the desired beverage e.g., 120 ml or 150 ml), once the consumer has drunk the beverage the wine glass 10 can be placed in the garbage/recycling bin.

Referring to FIG. 1B, the base 40 has a hub 42 located in the centre of the base to allow for easy attachment to the stem 16 of the wine glass 10. When attaching the base 40 to the stem 16 an inner surface 44 of the hub 42 comes into contact with and surrounds an outer surface 17 of the stem 16. Surface 17 has a reduced outer diameter relative to the outer diameter of stem 16. The inner surface 44 of the hub 40 also has protrusions 46 that create a stronger fit between the base 40 and the stem 16. The base has a circular outer perimeter.

It is envisaged that the wine glass 10 may be sold empty to wine manufacturers and contract fillers in the wine industry (see FIG. 3A). The wine manufactures and or contract fillers would then fill the wine glass 10 and seal the opening 30 in the stem 16 (see FIG. 3B). They would then insert the base 40 into the punt 20 (see FIG. 3C) and apply a shrink sleeve over the body as required.

While the closure has been described as a plug 34, it is envisaged that the closure could be any suitable type of closure. For example, the closure could be a foil cover or a plastic cap. The closure does not need to extend through the opening 30 and into the passage 32 in the stem 16. However, it will be appreciated that by including a closure, such as plug 34, that does extend through the opening 30 and into the passage 32 the volume of air, and therefore oxygen, in the beverage cup can be further reduced.

While the removable seal has been described as a punt 20, it is envisaged that the seal could be any suitable type of seal. For example, the seal could be a foil cover or a plastic cap. If the seal was to still include a protrusion that extends into the internal volume, the protrusion could be attached to an inner part of the seal (i.e., away from the perimeter where the seal contacts the mouth). It is envisaged that the seal does not need to extend into the internal volume 18 of the wine glass 10. However, it will be appreciated that by including a removable seal, such as punt 20, that does extend into the internal volume the height of the beverage in the beverage container can be lowered by removing the seal, thereby providing a more convenient drinking height for a consumer. Furthermore, although the mouth 14 of the body 12 is shown as being sealed at an upper rim of the mouth, it is envisaged that the seal may be positioned lower down from the upper rim of the mouth. In other words, the seal may be positioned lower inwardly into the mouth of the body 12, thereby creating a hollow area between an inner wall of the body and the upper portion of the seal.

While the beverage cup has been described as a single-serve wine glass 10, having the shape of a standard wine glass, it is envisaged that the beverage cup could be any shape having a mouth and a stem, where the mouth is larger than the stem. Relative largeness between the mouth and stem can be defined by the size of their internal diameters, or the area at their minimum openings.

While the base 40 is described as being located substantially within the punt 20, it is envisaged that the base 40 could also be mounted to the mouth end of the beverage cup in other ways. For example, the base 40 could be attached so that the base is substantially outside of the hollow area of the punt. In addition, rather than being secured to the punt by the protrusions on the punt, the base 40 could have a perimeter skirt that could contact an outer surface of the mouth of the beverage cup.

It is to be understood that, if any prior art publication is referred to herein, such reference does not constitute an admission that the publication forms a part of the common general knowledge in the art, in Australia or any other country.

In the claims which follow and in the preceding description of the invention, except where the context requires otherwise due to express language or necessary implication, the word “comprise” or variations such as “comprises” or “comprising” is used in an inclusive sense, i.e., to specify the presence of the stated features, but not to preclude the presence or addition of further features in various embodiments of the invention. 

1. A method of packaging a beverage, the method including: forming a beverage container having a body defining an internal volume for a single-serve of a beverage, the body having a mouth at a first end for drinking the beverage from the beverage container and a stem having a filling opening at a second end; attaching a removable seal to the mouth of the beverage container, the seal configured to protrude into the internal volume of the body; filling the interior volume of the beverage container via the filling opening; wherein the filling opening and the stem adjacent to the filling opening are narrower than the mouth to control a headspace formed at the filling opening; and sealing the filling opening using a closure after the beverage container has been filled the closure configured to extend through the filling opening and into the stem to further reduce the headspace in the packaged beverage by displacing air from the body as the closure is inserted into the stem.
 2. The method of claim 1, further comprising the step of selecting a closure configured to adjust a volume of air in the headspace.
 3. The method of claim 2, wherein the volume of air in the headspace is based at least in part on the size of the stem.
 4. The method of claim 1, wherein the closure comprises a plug that extends through the filling opening and into the stem.
 5. The method of claim 1, including permanently sealing the filling opening with the closure.
 6. The method of claim 1, wherein the seal comprises a punt configured to provide a chamber inside the mouth of the container.
 7. The method of claim 6, further comprising the step of locating a base within the chamber of the punt.
 8. The method of claim 7, further comprising the step of retaining the base within the chamber of the punt with a sleeve.
 9. The method of claim 8, including locating the sleeve in an operative position so as to overlay at least part of the first end of the container and extend along the body of the beverage container.
 10. The method of claim 8, wherein the sleeve is heat shrunk to secure the sleeve in the operative position.
 11. A beverage container that can be used as a cup comprising: a body defining an internal volume for a single-serve of a beverage, the body has a mouth at a first end having a removable seal for drinking the beverage from the container and a stem having a filling opening at second end, wherein the removable seal protrudes inwardly into the internal volume defining a non-fillable volume and the filling opening is sealed by a closure inserted into the stem after filling, and the filling opening and the stem adjacent to the filling opening are narrower than the mouth, wherein the internal volume is substantially equal to a volume of the single-serve of beverage in combination with the non-fillable volume defined by the removable seal.
 12. The beverage container of claim 11, wherein a headspace is formed within the filled container that is at least in part based on a size of the stem.
 13. The beverage container of claim 11, wherein a headspace is formed within the filled container that is at least in based on a configuration of the closure.
 14. The beverage container of claim 12, wherein the closure is configured to extend into each of the filling opening and the stem and thereby adjust the headspace within the container.
 15. The beverage container of claim 12, wherein the closure comprises a plug.
 16. The beverage container of claim 15, wherein the plug has a tapered side wall, such that as the plug is inserted into the filling opening air in the headspace is displaced from the stem.
 17. The beverage container of claim 11, wherein the removable seal comprises a punt.
 18. The beverage container of claim 17, wherein the punt extends into the internal volume of the beverage container.
 19. The beverage container of claim 17, wherein the punt is configured to provide a chamber inside the mouth of the container. 20-32. (canceled)
 33. A beverage container comprising: a body having a stem and a pair of openings disposed at opposing ends thereof, a first opening of the pair being larger than a second opening of the pair, the body and stem together defining an internal volume that is fillable through the stem with a beverage, wherein the first opening is sealed by a removable seal configured to protrude into the internal volume of the body and the second opening is sealed by a closure that is inserted through the second opening and into the stem, such that the seal and the closure together reduce headspace in the body.
 34. (canceled) 